Cameras used by scientists at NASA have captured images of “significant” solar flares emitting from the sun this week.

On Wednesday, NASA reported, a third solar “X-class” flare
was recorded in a span of just two days.

The flares — short-lived but incredibly powerful bursts of
radiation that bring goodies from the sun like gases, plasma and
other matters in the solar system — are not entirely unusual. At
least two of this week’s events have been larger than normal,
though, and may interfere with high-frequency radio
communications and GPS signals million miles away, according to
NASA.

Scientists said that the first significant solar flare was
recorded early Tuesday by NASA cameras that capture activity on
the sun 24 hours a day. That flare, spotted at around 7:41 a.m.
EDT, was classified as an X2.2 flare — more than double the
strength as an X1-level flare. Around an hour later, scientists
saw an X1.5 flare, then an X1.0 early Wednesday.

NASA said in a statement that "Analysis is underway to
determine potential impacts at Earth.” In the meantime,
though, more incidents could be expected.

“There is the chance that additional flares could occur in
the following days,” Katy Galimberti wrote Wednesday for
AccuWeather. As the sun rotates, the flares
could travel in a more direct path towards the Earth. The
radiation from such a flare may cause radio wave disturbances to
electronics, such as cell phones, GPS and radios, causing
services to occasionally cut in and out.

Mark Paquette, a meteorologist with the weather site, told
Galimberti that solar flares are like a “burp” from the sun.

"The 'burp' releases a stream of particles that comes away
from the sun's surface and sets the whole thing in motion,"
he said.

According to Space.com, the latest flare on Wednesday was the
eighth documented example so far in 2014 of an X-level event—the
strongest of the solar flares. Even the X2.2 spotted this week
was small compared to the strongest in recent months, though: in
February, NASA cameras caught a colossal X4.9 glare occur on the
sun.